The following publications are possibly variants of this publication:
- Energy Stable Flux Reconstruction Schemes for Advection-Diffusion Problems on TetrahedraD. M. Williams, Antony Jameson. jscic, 59(3):721-759, 2014. [doi]
- Erratum to: Energy Stable Flux Reconstruction Schemes for Advection-Diffusion Problems on TetrahedraD. M. Williams, Antony Jameson. jscic, 59(3):760, 2014. [doi]
- A Direct Flux Reconstruction Scheme for Advection-Diffusion Problems on Triangular GridsJ. Romero, Freddie D. Witherden, Antony Jameson. jscic, 73(2-3):1115-1144, 2017. [doi]
- An Extended Range of Energy Stable Flux Reconstruction Methods on TrianglesWill Trojak, Peter Vincent. jscic, 96(1):32, July 2023. [doi]
- A New Class of High-Order Energy Stable Flux Reconstruction SchemesPeter E. Vincent, Patrice Castonguay, Antony Jameson. jscic, 47(1):50-72, 2011. [doi]
- On the properties of energy stable flux reconstruction schemes for implicit large eddy simulationBrian C. Vermeire, Peter E. Vincent. jcphy, 327:368-388, 2016. [doi]
- A New Class of High-Order Energy Stable Flux Reconstruction Schemes for Triangular ElementsPatrice Castonguay, Peter E. Vincent, Antony Jameson. jscic, 51(1):224-256, 2012. [doi]
- PyFR: An open source framework for solving advection-diffusion type problems on streaming architectures using the flux reconstruction approachFreddie D. Witherden, Antony M. Farrington, Peter E. Vincent. cphysics, 185(11):3028-3040, 2014. [doi]